/**************************************************************************** ** ** Copyright (C) 2016 The Qt Company Ltd. ** Contact: https://www.qt.io/licensing/ ** ** This file is part of Qt Creator. ** ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and The Qt Company. For licensing terms ** and conditions see https://www.qt.io/terms-conditions. For further ** information use the contact form at https://www.qt.io/contact-us. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3 as published by the Free Software ** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT ** included in the packaging of this file. Please review the following ** information to ensure the GNU General Public License requirements will ** be met: https://www.gnu.org/licenses/gpl-3.0.html. ** ****************************************************************************/ #include "autotestconstants.h" #include "autotestplugin.h" #include "testcodeparser.h" #include "testframeworkmanager.h" #include "testsettings.h" #include "testtreeitem.h" #include "testtreemodel.h" #include #include #include #include #include #include namespace Autotest { namespace Internal { TestTreeModel::TestTreeModel(QObject *parent) : TreeModel(parent), m_parser(new TestCodeParser(this)), m_connectionsInitialized(false) { connect(m_parser, &TestCodeParser::aboutToPerformFullParse, this, &TestTreeModel::removeAllTestItems, Qt::QueuedConnection); connect(m_parser, &TestCodeParser::testParseResultReady, this, &TestTreeModel::onParseResultReady, Qt::QueuedConnection); connect(m_parser, &TestCodeParser::parsingFinished, this, &TestTreeModel::sweep, Qt::QueuedConnection); connect(m_parser, &TestCodeParser::parsingFailed, this, &TestTreeModel::sweep, Qt::QueuedConnection); } static TestTreeModel *m_instance = 0; TestTreeModel *TestTreeModel::instance() { if (!m_instance) m_instance = new TestTreeModel; return m_instance; } TestTreeModel::~TestTreeModel() { foreach (Utils::TreeItem *item, rootItem()->children()) { item->removeChildren(); takeItem(item); // do NOT delete the item as it's still a ptr hold by TestFrameworkManager } m_instance = 0; } void TestTreeModel::enableParsing() { m_refCounter.ref(); setupParsingConnections(); } void TestTreeModel::enableParsingFromSettings() { setupParsingConnections(); } void TestTreeModel::setupParsingConnections() { if (!m_connectionsInitialized) m_parser->setDirty(); m_parser->setState(TestCodeParser::Idle); if (m_connectionsInitialized) return; ProjectExplorer::SessionManager *sm = ProjectExplorer::SessionManager::instance(); connect(sm, &ProjectExplorer::SessionManager::startupProjectChanged, m_parser, &TestCodeParser::onStartupProjectChanged); CppTools::CppModelManager *cppMM = CppTools::CppModelManager::instance(); connect(cppMM, &CppTools::CppModelManager::documentUpdated, m_parser, &TestCodeParser::onCppDocumentUpdated, Qt::QueuedConnection); connect(cppMM, &CppTools::CppModelManager::aboutToRemoveFiles, this, &TestTreeModel::removeFiles, Qt::QueuedConnection); connect(cppMM, &CppTools::CppModelManager::projectPartsUpdated, m_parser, &TestCodeParser::onProjectPartsUpdated); QmlJS::ModelManagerInterface *qmlJsMM = QmlJS::ModelManagerInterface::instance(); connect(qmlJsMM, &QmlJS::ModelManagerInterface::documentUpdated, m_parser, &TestCodeParser::onQmlDocumentUpdated, Qt::QueuedConnection); connect(qmlJsMM, &QmlJS::ModelManagerInterface::aboutToRemoveFiles, this, &TestTreeModel::removeFiles, Qt::QueuedConnection); m_connectionsInitialized = true; } void TestTreeModel::disableParsing() { if (!m_refCounter.deref() && !AutotestPlugin::instance()->settings()->alwaysParse) m_parser->setState(TestCodeParser::Disabled); } void TestTreeModel::disableParsingFromSettings() { if (!m_refCounter.load()) m_parser->setState(TestCodeParser::Disabled); } bool TestTreeModel::setData(const QModelIndex &index, const QVariant &value, int role) { if (!index.isValid()) return false; TestTreeItem *item = static_cast(index.internalPointer()); if (item && item->setData(index.column(), value, role)) { emit dataChanged(index, index); if (role == Qt::CheckStateRole) { switch (item->type()) { case TestTreeItem::TestCase: if (item->childCount() > 0) emit dataChanged(index.child(0, 0), index.child(item->childCount() - 1, 0)); break; case TestTreeItem::TestFunctionOrSet: emit dataChanged(index.parent(), index.parent()); break; default: // avoid warning regarding unhandled enum member break; } } return true; } return false; } Qt::ItemFlags TestTreeModel::flags(const QModelIndex &index) const { if (!index.isValid()) return Qt::ItemIsEnabled | Qt::ItemIsSelectable; TestTreeItem *item = static_cast(itemForIndex(index)); return item->flags(index.column()); } bool TestTreeModel::hasTests() const { foreach (Utils::TreeItem *frameworkRoot, rootItem()->children()) { if (frameworkRoot->hasChildren()) return true; } return false; } QList TestTreeModel::getAllTestCases() const { QList result; foreach (Utils::TreeItem *frameworkRoot, rootItem()->children()) result.append(static_cast(frameworkRoot)->getAllTestConfigurations()); return result; } QList TestTreeModel::getSelectedTests() const { QList result; foreach (Utils::TreeItem *frameworkRoot, rootItem()->children()) result.append(static_cast(frameworkRoot)->getSelectedTestConfigurations()); return result; } void TestTreeModel::syncTestFrameworks() { // remove all currently registered foreach (Utils::TreeItem *item, rootItem()->children()) { item->removeChildren(); takeItem(item); // do NOT delete the item as it's still a ptr hold by TestFrameworkManager } TestFrameworkManager *frameworkManager = TestFrameworkManager::instance(); QVector sortedIds = frameworkManager->sortedActiveFrameworkIds(); foreach (const Core::Id &id, sortedIds) rootItem()->appendChild(frameworkManager->rootNodeForTestFramework(id)); m_parser->syncTestFrameworks(sortedIds); emit updatedActiveFrameworks(sortedIds.size()); } void TestTreeModel::removeFiles(const QStringList &files) { foreach (const QString &file, files) markForRemoval(file); sweep(); } void TestTreeModel::markAllForRemoval() { foreach (Utils::TreeItem *frameworkRoot, rootItem()->children()) { foreach (Utils::TreeItem *item, frameworkRoot->children()) static_cast(item)->markForRemovalRecursively(true); } } void TestTreeModel::markForRemoval(const QString &filePath) { if (filePath.isEmpty()) return; for (Utils::TreeItem *frameworkRoot : rootItem()->children()) { TestTreeItem *root = static_cast(frameworkRoot); for (int childRow = root->childCount() - 1; childRow >= 0; --childRow) { TestTreeItem *child = root->childItem(childRow); child->markForRemovalRecursively(filePath); } } } void TestTreeModel::sweep() { for (Utils::TreeItem *frameworkRoot : rootItem()->children()) { TestTreeItem *root = static_cast(frameworkRoot); sweepChildren(root); } // even if nothing has changed by the sweeping we might had parse which added or modified items emit testTreeModelChanged(); #ifdef WITH_TESTS if (m_parser->state() == TestCodeParser::Idle && !m_parser->furtherParsingExpected()) emit sweepingDone(); #endif } /** * @note after calling this function emit testTreeModelChanged() if it returns true */ bool TestTreeModel::sweepChildren(TestTreeItem *item) { bool hasChanged = false; for (int row = item->childCount() - 1; row >= 0; --row) { TestTreeItem *child = item->childItem(row); if (child->parentItem()->type() != TestTreeItem::Root && child->markedForRemoval()) { destroyItem(child); hasChanged = true; continue; } if (bool noEndNode = child->hasChildren()) { hasChanged |= sweepChildren(child); if (noEndNode && child->childCount() == 0) { destroyItem(child); hasChanged = true; continue; } } hasChanged |= child->newlyAdded(); child->markForRemoval(false); } return hasChanged; } void TestTreeModel::onParseResultReady(const TestParseResultPtr result) { TestTreeItem *rootNode = TestFrameworkManager::instance()->rootNodeForTestFramework(result->frameworkId); QTC_ASSERT(rootNode, return); handleParseResult(result.data(), rootNode); } void TestTreeModel::handleParseResult(const TestParseResult *result, TestTreeItem *parentNode) { // lookup existing items if (TestTreeItem *toBeModified = parentNode->find(result)) { // found existing item... Do not remove toBeModified->markForRemoval(false); // modify and when content has changed inform ui if (toBeModified->modify(result)) { const QModelIndex &idx = indexForItem(toBeModified); emit dataChanged(idx, idx); } // recursively handle children of this item foreach (const TestParseResult *child, result->children) handleParseResult(child, toBeModified); return; } // if there's no matching item, add the new one TestTreeItem *newItem = result->createTestTreeItem(); QTC_ASSERT(newItem, return); parentNode->appendChild(newItem); } void TestTreeModel::removeAllTestItems() { foreach (Utils::TreeItem *item, rootItem()->children()) item->removeChildren(); emit testTreeModelChanged(); } #ifdef WITH_TESTS // we're inside tests - so use some internal knowledge to make testing easier TestTreeItem *qtRootNode() { return TestFrameworkManager::instance()->rootNodeForTestFramework( Core::Id(Constants::FRAMEWORK_PREFIX).withSuffix("QtTest")); } TestTreeItem *quickRootNode() { return TestFrameworkManager::instance()->rootNodeForTestFramework( Core::Id(Constants::FRAMEWORK_PREFIX).withSuffix("QtQuickTest")); } TestTreeItem *gtestRootNode() { return TestFrameworkManager::instance()->rootNodeForTestFramework( Core::Id(Constants::FRAMEWORK_PREFIX).withSuffix("GTest")); } int TestTreeModel::autoTestsCount() const { TestTreeItem *rootNode = qtRootNode(); return rootNode ? rootNode->childCount() : 0; } bool TestTreeModel::hasUnnamedQuickTests(const TestTreeItem *rootNode) const { for (int row = 0, count = rootNode->childCount(); row < count; ++row) { if (rootNode->childItem(row)->name().isEmpty()) return true; } return false; } TestTreeItem *TestTreeModel::unnamedQuickTests() const { TestTreeItem *rootNode = quickRootNode(); if (!rootNode) return 0; for (int row = 0, count = rootNode->childCount(); row < count; ++row) { TestTreeItem *child = rootNode->childItem(row); if (child->name().isEmpty()) return child; } return 0; } int TestTreeModel::namedQuickTestsCount() const { TestTreeItem *rootNode = quickRootNode(); return rootNode ? rootNode->childCount() - (hasUnnamedQuickTests(rootNode) ? 1 : 0) : 0; } int TestTreeModel::unnamedQuickTestsCount() const { if (TestTreeItem *unnamed = unnamedQuickTests()) return unnamed->childCount(); return 0; } int TestTreeModel::dataTagsCount() const { TestTreeItem *rootNode = qtRootNode(); if (!rootNode) return 0; int dataTagCount = 0; foreach (Utils::TreeItem *item, rootNode->children()) { TestTreeItem *classItem = static_cast(item); foreach (Utils::TreeItem *functionItem, classItem->children()) dataTagCount += functionItem->childCount(); } return dataTagCount; } int TestTreeModel::gtestNamesCount() const { TestTreeItem *rootNode = gtestRootNode(); return rootNode ? rootNode->childCount() : 0; } QMultiMap TestTreeModel::gtestNamesAndSets() const { QMultiMap result; if (TestTreeItem *rootNode = gtestRootNode()) { for (int row = 0, count = rootNode->childCount(); row < count; ++row) { const TestTreeItem *current = rootNode->childItem(row); result.insert(current->name(), current->childCount()); } } return result; } #endif /***************************** Sort/Filter Model **********************************/ TestTreeSortFilterModel::TestTreeSortFilterModel(TestTreeModel *sourceModel, QObject *parent) : QSortFilterProxyModel(parent), m_sourceModel(sourceModel), m_sortMode(TestTreeItem::Alphabetically), m_filterMode(Basic) { setSourceModel(sourceModel); } void TestTreeSortFilterModel::setSortMode(TestTreeItem::SortMode sortMode) { m_sortMode = sortMode; invalidate(); } void TestTreeSortFilterModel::setFilterMode(FilterMode filterMode) { m_filterMode = filterMode; invalidateFilter(); } void TestTreeSortFilterModel::toggleFilter(FilterMode filterMode) { m_filterMode = toFilterMode(m_filterMode ^ filterMode); invalidateFilter(); } TestTreeSortFilterModel::FilterMode TestTreeSortFilterModel::toFilterMode(int f) { switch (f) { case TestTreeSortFilterModel::ShowInitAndCleanup: return TestTreeSortFilterModel::ShowInitAndCleanup; case TestTreeSortFilterModel::ShowTestData: return TestTreeSortFilterModel::ShowTestData; case TestTreeSortFilterModel::ShowAll: return TestTreeSortFilterModel::ShowAll; default: return TestTreeSortFilterModel::Basic; } } bool TestTreeSortFilterModel::lessThan(const QModelIndex &left, const QModelIndex &right) const { // root items keep the intended order const TestTreeItem *leftItem = static_cast(left.internalPointer()); if (leftItem->type() == TestTreeItem::Root) return left.row() > right.row(); const TestTreeItem *rightItem = static_cast(right.internalPointer()); return leftItem->lessThan(rightItem, m_sortMode); } bool TestTreeSortFilterModel::filterAcceptsRow(int sourceRow, const QModelIndex &sourceParent) const { QModelIndex index = m_sourceModel->index(sourceRow, 0,sourceParent); if (!index.isValid()) return false; const TestTreeItem *item = static_cast(index.internalPointer()); switch (item->type()) { case TestTreeItem::TestDataFunction: return m_filterMode & ShowTestData; case TestTreeItem::TestSpecialFunction: return m_filterMode & ShowInitAndCleanup; default: return true; } } } // namespace Internal } // namespace Autotest